Plessey PS25006 - EPIC 6:2 Multiplex box Instruction Manual. Standard Components PS25006 One PS25006 EPIC 6 input, 2 output multiplex box unit. User Guide Contents 1.0 Introduction Page 2 2.0 The PS25006 unit 2 3.0 Operation 3 4.0 Setting the DRL (Driven Right Leg) Gain 4 5.0 Electrical connectors 4 6.0 Disclaimer 5 7.0 Copyright 5-1 -
1.0 Introduction The Plessey PS25006 unit provides an interface between up to six EPIC sensors and one standard 2-input EPIC Control and Interface Box, (PS25000A, PS25001A or PS25003). It includes a driven right leg (DRL) output with manually adjustable gain. It is primarily designed to be used as a part of a multiple sensor system for non-contact seat back capacitive ECG measurements. It uses LEMO sockets for both inputs and outputs. 2.0 The PS25006 Box Front Panel The front panel of the PS25006 box contains input sockets for connection of up to 6 EPIC sensors. The inputs are via 5 pin LEMO sockets to ensure the good quality connection of the cable shielding to the system ground that is essential in non-contact ECG applications. The connection details of the sockets are shown in section 5. Rear Panel The rear panel contains two sensor outputs, A and B, also in the form of LEMO sockets. Power to the box is provided by pin 3 (Supply) of these two sockets. The driven right leg (DRL) output is also located on the back panel in the form of a blue 4mm socket. - 2 -
Top Panel The top panel of the box contains two six-position rotary Channel Select knobs to control which two of the six sensors are routed to the channel A and channel B outputs. In each case sensor 1 is selected by rotating the knob fully anti-clockwise and sensor 6 by rotating it fully clockwise. The two selected channels also provide the inputs to the DRL circuit. Note that all connected sensors are powered, regardless of the switch position; the selectors only switch the sensor signal path. Also located on the top panel are the DRL controls, which consist of a INV/NON INV switch and a gain knob. The switch is used to set the polarity of the DRL signal. When used with non-inverting sensors, the switch should be set to INV, and vice versa. At the time of writing, all of Plessey s EPIC sensor range are non-inverting. The gain knob on the top panel is used to set the gain of the DRL circuit from zero (fully anticlockwise) to maximum (fully clockwise). See section 4 for details on setting the DRL gain. A red LED indicator shows when the box is powered. Power is provided through the supply pin of the cables connected from this box to the main EPIC Control and Interface Box. 3.0 Operation 1. Insert the LEMO connectors from the EPIC sensors to the sockets on the front panel. If using the box with Plessey s 6 sensor seat pad, plug the numbered connectors into the sockets with the same numbers. 2. If using DRL function, insert the DRL plug into the socket on the rear panel. - 3 -
3. Using 2xPS25013 cables (4 pin DIN to 5 pin LEMO), connect the outputs form the PS25006 box to the A and B inputs on the Control and Interface Box. 4. Connect the Control and Interface Box to the USB port of a computer, and switch on the Control and Interface Box. The red LED indicators on both boxes should light. 5. Use the Channel Select knobs to select the pair of sensors that you wish to view. 4.0 Setting the DRL (Driven Right Leg) Gain DRL is most commonly used in electrophysiology measurement systems. It is referred to as Driven Right Leg since in conventional ECG systems the signal is attached to the patient s right leg. It works by feeding back an inverted version of the common mode (i.e. noise) signal onto the body. In non-contact electrophysiology systems the DRL signal can be capacitively coupled onto the body to provide a driven ground plane for reducing noise and improving signal stability. Despite the name, there is no need to attach the signal to the user s right leg, and for systems with sensors incorporated into a seat back the DRL is normally attached to a piece of conductive fabric placed on the base of the seat. The gain of the DRL loop is set by adjusting the Gain knob on the top panel of the box. If the gain is too low, there will be insufficient signal to cancel the noise. If the gain is too high the system will become unstable and the feedback signal will be limited by the supply rails (+/-5V), and thus become distorted. Either of these two methods are suggested for setting the DRL gain: 1. Whilst viewing the differential signal, turn the DRL gain to minimum (fully anticlockwise), and then increase it slowly until the ECG signal can be observed. As the DRL gain is increased further, at some point the signal may disappear into noise as the gain becomes too high. This will define the allowable range for gain in that particular setup. Use a setting that is not too close to the minimum or the maximum that gives the best signal in terms of noise, stability and ECG amplitude. 2. The alternative method is to look at the individual sensor signals. If using the EPIC demo software, select signals A and B, disable all software filters and set the time base to minimum (0.1 s/div). If the system is being used in an environment with mains electricity noise, then at minimum DRL gain (fully anticlockwise), the 50 or 60Hz signal should be seen strongly on the A and B outputs. As the gain is increased this noise signal will decrease. At some point as the gain is increased further the basic 50 or 60Hz sine wave noise signal may become distorted. This defines the maximum usable DRL gain for that situation. Use a gain setting that is slightly lower than this point. When using the system in a car mains electricity noise will not be significant. In this case method 1 is recommended for the setting the DRL gain, choosing a value that will give maximum stability. Connecting the DRL output to the 0V of the car is also recommended for improving stability. - 4 -
5.0 Electrical connectors The input and output sockets are wired as below: Pin 1 Pin 2 Pin 3 Pin 4 Pin 5 Case Output Gnd Supply Gnd Not used Gnd 6.0 Disclaimer Information provided in this User Guide by Plessey Semiconductors Limited ( Plessey ) is believed to be correct and accurate but Plessey accepts no liability for errors that may appear in this document, howsoever occurring, or liability arising from the use or application of any information or data provided herein. The PS25006 is a test product and neither Plessey nor its EPIC Technology Licensor the University of Sussex ( Sussex ) makes any representation or gives any warranty or undertaking in relation to it, and so far as permitted by law, all conditions, warranties, representations and other obligations on the part of Plessey and Sussex are excluded. Without prejudice to the generality of the above, no representation, warranty or undertaking is given; (a) that the PS25006 is of satisfactory quality or is fit for any particular purpose, has been developed with reasonable care and skill, or is safe to use; (b) that the PS25006 is suitable for monitoring or diagnosing any physiological function, condition or illness; (c) that the PS25006 has been manufactured or tested in accordance with applicable laws and regulations governing the manufacture and testing of medical devices; The PS25006 must not, in any circumstances be used, nor data arising from its use be used to inform any decision about the health, welfare, monitoring or treatment of any human being. 7.0 Copyright The contents of this User Guide are copyright of Plessey Semiconductors Ltd and may not be reproduced, disclosed or supplied in whole or in part to any third party. - 5 -
Document 291980 Issue 1 Head Office Tamerton Road, Roborough, Plymouth, Devon, United Kingdom PL6 7BQ Tel: +44 1752 693000 Fax: +44 1752 693200 Email: sales@plesseysemi.com Design & Technology Centre Delta 500, Delta Business Park Great Western Way, Swindon United Kingdom SN5 7XE Tel: +44 1793 518000 Fax: +44 1793 518030 ISO/TS 16949:2009 OHSAS 1:8001:2007 ISO 9001:2008 ISO 14001:2004 www.plesseysemi.com Plessey Semiconductors Ltd - Registered Company in the United Kingdom 4129612
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